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Fatimah A. Z. Mohd Saat
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Cited by
Year
Numerical predictions of early stage turbulence in oscillatory flow across parallel-plate heat exchangers of a thermoacoustic system
FAZ Mohd Saat, AJ Jaworski
Applied Sciences 7 (7), 673, 2017
272017
The effect of temperature field on low amplitude oscillatory flow within a parallel-plate heat exchanger in a standing wave thermoacoustic system
FAZ Mohd Saat, AJ Jaworski
Applied Sciences 7 (4), 417, 2017
242017
Fluid dynamics of oscillatory flow across parallel-plates in standing-wave thermoacoustic system with two different operation frequencies
WA Allafi, FAZM Saat, X Mao
Engineering Science and Technology, an International Journal 24 (1), 41-49, 2021
162021
A preliminary conceptual design approach of food waste composter design
N Angie, EM Tokit, N Abd Rahman, FAZM Saat, FS Anuar, NMM Mitan
Transdisciplinary Research and Education Center for Green Technologies …, 2021
162021
Friction factor correlation for regenerator working in a travelling-wave thermoacoustic system
FAZ Mohd Saat, AJ Jaworski
Applied Sciences 7 (3), 253, 2017
132017
DeltaE modelling and experimental study of a standing wave thermoacoustic test rig
FAZM Saat, D Johari, E Mattokit
Journal of Advanced Research in Fluid Mechanics and Thermal Sciences 60 (2 …, 2019
112019
Temperature and velocity changes across tube banks in one-directional and bi-directional flow conditions
N Hasbullah, FAZM Saat, FS Anuar, D Johari, MF Sukri
Transdisciplinary Research and Education Center for Green Technologies …, 2021
92021
Oscillatory flow and heat transfer within parallel-plate heat exchangers of thermoacoustic systems
FAZM Saat, AJ Jaworski
Proceedings of the World Congress on Engineering 2013. Lecture Notes in …, 2013
82013
Computational Fluid Dynamics Study of Wake Recovery for Flow Across Hydrokinetic Turbine at Different Depth of Water
HW Ren, FAZM Saat, FS Anuar, MAA Wahap, EM Tokit, TB Tuan
CFD Letters 13 (2), 62-76, 2021
72021
Numerical study of turbulence related to vortex shedding structures of an oscillatory flow in thermoacoustic energy system
FAZM Saat, E Mattokit, SHA Mustaffa, NM Ghazali
Energy Procedia 156, 239-243, 2019
72019
Entrance and exit effects on oscillatory flow within parallel-plates in standing-wave thermoacoustic system with two different operating frequencies
WA Allafi, FAZM Saat
Journal of King Saud University-Engineering Sciences 34 (5), 350-360, 2022
62022
Turbulent Vortex Shedding across Internal Structure in Thermoacoustic Oscillatory Flow
SHA Mustaffa, FAZM Saat, E Mattokit
Journal of Advanced Research in Fluid Mechanics and Thermal Sciences 46 (1 …, 2018
62018
Experimental and numerical studies of one-directional and bi-directional flow conditions across tube banks heat exchanger
N Hasbullah, FAZM Saat, FS Anuar, MF Sukri, P Saechan
Thermal Science and Engineering Progress 28, 101176, 2022
52022
Parametric study of thermoacoustic system using DeltaE
D Johari, EM Mattokit, FAZM Saat
Journal of Advanced Research in Fluid Mechanics and Thermal Sciences 46 (1 …, 2018
52018
Numerical investigations of fluid flow and heat transfer processes in the internal structures of thermoacoustic devices
M Saat, F Al Zahrah
University of Leicester, 2013
52013
Experimental testing of the flow resistance and thermal conductivity of porous materials for regenerators
Z Yu, FAZM Saat, AJ Jaworski
23rd IIR International Congress of Refrigeration: Refrigeration for …, 2011
52011
Analysis of 3d printed stack in thermoacoustic cooling
MNH Roslan, NA Zolpakar, N Mohd-Ghazali, FAZM Saat
Transdisciplinary Research and Education Center for Green Technologies …, 2021
42021
CFD modeling of flow and heat transfer within the parallel plate heat exchanger in standing wave thermoacoustic system
FAZM Saat, AJ Jaworski, X Mao, Z Yu
Proc. 19th International Congress on Sound and Vibration, 8-12, 2012
42012
Prediction of slip velocity at the interface of open-cell metal foam using 3D printed foams
KA Mustapha, F Shikh Anuar, FAZ Mohd Saat
Colloids and Interfaces 6 (4), 80, 2022
32022
Numerical and experimental investigations of the oscillatory flow inside standing wave thermoacoustic system at two different flow frequencies
FAZM Saat, SHA Mustaffa, FS Anuar
CFD Letters 11 (8), 1-15, 2019
32019
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